Researchers at Chalmers University of Technology in Sweden and the US space agency NASA have made an unexpected discovery ...

Scientists have found a way to make hydrogen peroxide from vibration instead of electricity or light, using motion and water ...

Learn how FTIR spectroscopy simplifies pharmaceutical formulation by providing rapid, accurate molecular analysis.

XRF relies on the emission of secondary X-rays from a material when irradiated with primary X-rays. Each element emits ...

In the global race to decarbonize, hydrogen stands out as one of the most promising clean fuels. But despite its potential to power industries and transportation without emitting carbon, producing ...

Discover how Thermo Fisher’s handheld Raman and lab FTIR tools are transforming controlled substance testing with safer, ...

Panel discussion featured at the International Society of Pain and Neuroscience (ISPN) Annual Meeting in London titled United to Conquer ...

Recently, a team of Estonian scientists published a study that may revolutionize how we analyze fluorescence correlation ...

UChicago researchers, partners create molecules that communicate on the same frequencies as phone and internet services ...

From solar panels to advanced medical devices, many modern technologies depend on special materials that can control light ...

A novel spectroscopic method developed at Institute of Science Tokyo, Japan, enables highly sensitive analysis of molecules at material interfaces, using a combination of conventional ATR-IR, precise ...

The SHERLOC instrument utilizes spectroscopy to analyze Martian surfaces, offering insights into mineralogy and potential biosignatures for astrobiology.